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When a heterozygous genotype (two different alleles) results in an intermediate phenotype, this is either codominance or incomplete dominance. If it is codominance, then both alleles are expressed together in the phenotype. If it is incomplete dominance, the two alleles produce a blended phenotype rather than both alleles being expressed together.
The inheritance of a dominant and a recessive allele results in a blending of traits to produce intermediate characteristics.
Complete dominance is when the F1 offspring look like one of the two parents. Incomplete dominance is when neither allele for a gene is completely dominant over the other which leads to a phenotype (physical look or characteristic) somewhere between the two parents. An example of complete dominance would be in Mendel's classic pea cross experiment, with yellow peas being dominant to green peas. More peas would be yellow than green. An example of incomplete dominance would be with snapdragons. If a red true breeding snapdragon were crossed with a white true breeding snapdragon, the F1 generation offspring would all be pink, because neither the 'red' allele nor the 'white' allele was completely dominant over the other leading to a hybridization in color somewhere between the two parents.
Fruit nor Flowers.
No, Jasmine Sampaguita are not complete flowers. They do not have stamens, carpels, or seeds. They are only reproduced through cuttings.
You get aspects of each trait displayed. Like, if one cat had a solid colored orange fur, and it's mate was brown, you could get a mottled cat. Or if one parent has brown eyes, and the other green, hazel eyes could occur.
This is an example of incomplete dominance.
When a heterozygous genotype (two different alleles) results in an intermediate phenotype, this is either codominance or incomplete dominance. If it is codominance, then both alleles are expressed together in the phenotype. If it is incomplete dominance, the two alleles produce a blended phenotype rather than both alleles being expressed together.
yes that is true. the classic example is a red flower (RR) and a white flower (rr). if they produce offspring that are Rr, the offspring will be pink. R is not dominant and r is not recessive; they are incompletely dominant and combine to form a new phenotype. ^actually, that's not the right answer to the question; the answer is "NO." polygenic inheritance occurs, not incomplete dominance. incomplete inheritance? really? The answer is polygenic inheritance
No, it is not the case. Incomplete dominance occur when both genes of the same allele pair are not in dominant condition. One is dominant and the other is recessive. Therefore, only half of the chemical processes are completed by one gene. The other half are to be completed by its counterpart in dominant position. For example when a pea plant with red flowers is crossed with another plant with white flowers, all the F1 plants bear pink flowers. In F2 generation the flower color will segregate in the ratio of 1 red: 2 pink : 1 white flowered plants.
No, it is not the case. Incomplete dominance occur when both genes of the same allele pair are not in dominant condition. One is dominant and the other is recessive. Therefore, only half of the chemical processes are completed by one gene. The other half are to be completed by its counterpart in dominant position. For example when a pea plant with red flowers is crossed with another plant with white flowers, all the F1 plants bear pink flowers. In F2 generation the flower color will segregate in the ratio of 1 red: 2 pink : 1 white flowered plants.
One funcional allele is insufficient to produce the dominant pheontype. Both alleles are expressed as an intermediate of the alleles.
A red flower and a yellow flower mating to produce an orange flower. (Apex)
Intermediate inheritance refers to either codominance or incomplete dominance. Codominance refers to a condition in which two alleles of a locus are expressed in a heterozygote. For example, if white cow and a red cow bred they would produce a roan (a mix of red and white) calf because the red and white colors would be expressed independently (hair by hair). Incomplete dominance is a condition in which neither member of a pair of contrasting alleles is complete expressed when the other is present. For example, if a red flower and a white flower bred to produce a plant with pink flower, this would be an example of codominance because both the red and the white alleles were expressed.
When a heterozygous genotype (two different alleles) results in an intermediate phenotype, this is either codominance or incomplete dominance. If it is codominance, then both alleles are expressed together in the phenotype. If it is incomplete dominance, the two alleles produce a blended phenotype rather than both alleles being expressed together.
A complete flower has petals, sepals, stamens and pistols. Sampaguita flowers can not produce seeds so it is not a complete flower.
The inheritance of a dominant and a recessive allele results in a blending of traits to produce intermediate characteristics.